Project description:Sanger DToL manifest

Project description:Apple Day Manifest, Kew

Project description:Human dermal microvascular blood and lymphatic endothelial cells manifest unique profiles of histone modifications.

Project description:Human DNA methylation Beadchip v1.2 was used to profile buffy coat samples. The main goal of the study was to relate DNA methylation data to Huntington disease status (control, pre-manifest disease, manifest motor disease).

Project description:ILC2s from different tissues manifest distinct properties. To investigate the molecular mechanisms regulating tissue features of ILC2s, we performed ATAC-seq on purified ILC2s from 5 different tissues.

Project description:Fibrotic Myofibroblasts Manifest Genome-Wide Derangements of Translational Control

Project description:Huntington’s disease (HD) is an autosomal-dominant neurodegenerative disorder caused by the CAG expansion in the Huntingtin (HTT) gene. Several studies have shown the potential of microRNAs as biomarkers in neurodegenerative diseases. However, no bona fide microRNAs have been identified as promising diagnostic biomarkers for HD. As part of the PREDICT-HD project, here we performed NanoString on blood samples of 115 pre-manifest HD cases and 111 controls in an effort to provide promising biomarkers for the diagnostic of HD or the disease processes tracking. The results showed that five miRNAs (miR-1252, miR-433, miR-553, miR-138-5p and miR-2053) are significantly differentially expressed in pre-manifest gene-positive HD cases vs. gene-negative controls. We also explored the miRNAs associated with HD severity by correlating the miRNA expression with CAP scores of 115 pre-manifest HD samples and found that 41 and 24 miRNAs are negatively and positively correlated with CAP scores significantly. Furthermore, target gene set of miR-138 and miR-433 , its co-expressed mRNAs in ROSMAP, and differentially expressed mRNAs of HD reveal four overlap genes (CASP7, CNOT6L, TMED and FERMT2). In summary, our study provides new insights into biomarker of Huntington’s disease by analyzing the cross-sectional miRNA expression data in blood.

Project description:Huntington’s disease (HD) is an autosomal-dominant neurodegenerative disorder caused by the CAG expansion in the Huntingtin (HTT) gene. Several studies have shown the potential of microRNAs as biomarkers in neurodegenerative diseases. However, no bona fide microRNAs have been identified as promising diagnostic biomarkers for HD. As part of the PREDICT-HD project, here we performed NanoString on blood samples of 115 pre-manifest HD cases and 111 controls in an effort to provide promising biomarkers for the diagnostic of HD or the disease processes tracking. The results showed that five miRNAs (miR-1252, miR-433, miR-553, miR-138-5p and miR-2053) are significantly differentially expressed in pre-manifest gene-positive HD cases vs. gene-negative controls. We also explored the miRNAs associated with HD severity by correlating the miRNA expression with CAP scores of 115 pre-manifest HD samples and found that 41 and 24 miRNAs are negatively and positively correlated with CAP scores significantly. Furthermore, target gene set of miR-138 and miR-433 , its co-expressed mRNAs in ROSMAP, and differentially expressed mRNAs of HD reveal four overlap genes (CASP7, CNOT6L, TMED and FERMT2). In summary, our study provides new insights into biomarker of Huntington’s disease by analyzing the cross-sectional miRNA expression data in blood.

Project description:The circadian clock component REVERBα is considered a dominant regulator of lipid metabolism, with global Reverbα deletion driving dysregulation of white adipose tissue (WAT) lipogenesis and obesity. However, a similar phenotype is not observed under adipocyte-selective deletion (ReverbαFlox2-6AdipoCre), and transcriptional profiling demonstrates that, under basal conditions, direct targets of REVERBα regulation are limited, and include the circadian clock and collagen dynamics. Under high-fat diet (HFD) feeding, ReverbαFlox2-6AdipoCre mice do manifest profound obesity, yet without the accompanying WAT inflammation and fibrosis exhibited by controls. Integration of the WAT REVERBα cistrome with differential gene expression reveals broad control of metabolic processes by REVERBα which is unmasked in the obese state.

Project description:Follicular lymphoma (FL) is characterized by the t(14;18)(q32;q21), frequent numerical chromosomal alterations, and recurrent somatic mutations. However, no genetic studies are available for FL in situ (FLIS), a putative precursor lesion of FL. In this study, we analyzed cases of FLIS without manifest (m)FL, partial involvement by FL (PFL), and paired cases of FLIS and mFL to detect possible early chromosomal imbalances, as well as DNA-methylation patterns of genomic regions of selected genes. We demonstrated that paired FLIS and mFL cases are always clonally related. FLIS and PFL have no or few secondary chromosomal imbalances detectable by copy number arrays and a lower level of gene methylation as compared to mFL. Additionally, EZH2 Tyr641 mutations were detected in a subset of both FLIS and PFL cases. In conclusion, this study provides evidence that FLIS represents a FL precursor lesion of long-lived clonal B-cells carrying the t(14;18) with no or few secondary genetic changes. The earliest secondary genetic alterations detected in FLIS are the EZH2 Tyr641 mutation and low levels of CNAs, as evidence of clonal evolution. Our data suggest that there may be more than one distinct lesion driving the progression from FLIS to manifest lymphoma. DNA from cases, 20 tumor samples (10 in situ Follicular lymphoma, 4 Partial infiltration folliculary lymphoma and 6 manifest FL) were analyzed with Agilent-014693 Human Genome CGH Microarray 244A platform for copy number alterations study. For cases 9-14 paired samples of in situ follicular lymphoma and manifest follicular lymphoma were analyzed. Agilent-014693 Human Genome CGH Microarray 244A arrays were performed according to the manufacturer's directions on DNA extracted from lymph nodes that were hybridized against a normal DNA (pool) of the same gender.